US1232595A - Friction draft-gear. - Google Patents

Description

E. W. NEWELL.

FRlcTloN DRAFT GEAR.

APPLICATION FILED AUG-I7, 19l5| Patented 10,

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FRICTION DRAFT GEAR.-

APPLICATION FILED AuG.17.1915.

11,232,595, Patented July 10, 1917.

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EDWARD W. NEWELL', OEPTTSBURGH, PENNSYLVANIA, ASSGNOJR. TO THE WESTING- HOUSE AIR BRAKE COMPANY, F WILMEEDING, PENNSYLVANA, A CORPORATKON 0F PENNSYLVANIA.

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Spiecication of Letters Patent.

FRICTION DRAFT-GEAR.

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Application filed August 17, 1915. Serial No. 45,878.

To all whom z't may concern:

Be it known that I, EDWARD W. NEWELL, a citizen of the United States, residing at Pittsburgh, in the county of Allegheny and State of Pennsylvania, have invented new and useful Improvements in Friction Draft- Gears, of which the following is a speci-l the draw-bar to the draft gear.

Inv the accompanying drawings; Figure l' is a vertical longitudinal section of a fric tion draft gear embodying my improvements, showing the parts in release lposition; Fig. 2 a horizontal section thereof, in part; Fig. 3 `a vertical longitudinal section of the draft gear, showing the'parts com` pressed under a pulling stress; Fig. 4a view similar tol Fig. 3, showing the parts com-- pressed under a bufiing stress; Fig. 5 a partial face view of the rear friction element, showing one of the links inserted therein; and Fig. 6 a section on the line w-a of Fig. 5. l

` As shown in the drawings, a friction draft gear embodying myiinvention may comprise frontl and rear friction elements 1 and 2 adapted to be supported by carriers 3 secured to the car4 center sills 4.

@The front friction element 1 is preferably in the form of a casing aihd has oppositely inclined .friction faces 5, while the rear friction element 2 is provided with similar oppositely inclined friction faces v6 opposing ing corresponding friction faces of the friction elements and the plunger wedges.

v`Within the casing friction member `1 are mounted coil springs 10 and 11 adapted to bear against the front plunger wedge 7 and springs '12,# and- 13 at the opposite side of the friction members eXert their force against the rear plunger wedge 8, which is preferably made in two sections having ball shaped engaging faces, so as to permit adjustment of the parts where there is any inequality in the fitting of the friction members.

The rear end of the inner spring 13 en gages an adjustable nut 14 having screwthreaded engagement with a rod 15. This rod extends forward through apertures in the plunger wedges 7 and 8 and has a head 16 at the front end which engages a recess in the plunger'wedge 7. By screwing up the nut 14, the spring 13 can be placed under initial com-pression to the extent desired.

The spring 12 bears at the rear end against an abutment or stop 17 carried by the stop casting 18 secured to each center sill.

rlhe front friction element 1 engages stops 19of'the castings 18 and the rear1 friction element 2 engages stops 20 carried by said castings. v

According to the present construction, the draft gear may be operated under draft stresses by side links 21 having enlarged heads 22 adapted to engage within corresponding recesses in the rear friction element 2. The front ends of the links are provided with elongated slotsl 23 for a key 24 which is adapted to connect the links with draw-bar 25.

In order to permit lateral movement ofwww the draw-bar without disturbing the normal relation of the key 24 to the links 21, bushings 26 are interposed between the opposite sides of the key 24`and the draw-bar. 'These bushings are semi-cylindrical and have outer convex faces adapted to engage correspond-` ing concave faces of the draw-bar, so that the draw-bar can rock laterally without moving the key 24, the draw-bar having its inner end vcurved to fit a corresponding curved face of the friction element 1. Normally the parts are in the released position shown in Fig. 1 of the drawings an in operation, ifthe draw-bar be subjected to a bufling stress, the/ front friction element 1 is forced inwardly by the drawibar, and Asince the rear friction element 2 is prevented from rearward movement by the stops 20, the wedge blocks 9 will be `forced laterally inward and rearwardly against the resistance of the springs 12 and 13 which act on the plunger wedge 8 to opposite the movementl of said blocks on the contracting friction faces of the friction elements 1 and 2 and the plunger Wedges 7 and 8.

The springs 10 and 11 are also compressed by the inward movement of the friction element 1 and their force is exerted on the front plunger wedge 7 so that there is the combined resistances of all the springs acting to increase the frictional resistance of the wedge'blocks 9 to movement, the parts under a bufiing stress assuming the positions shown in Fig. l of the drawings.

ln releasing after a bufling stress has been applied, the springs 10 and 11 will act against the front friction element 1 and as the draw-bar 25 moves forward, the friction element is pushed forwardly by the springs 10 and 11 and as this tends to open the space for the wedge blocks 9, the frictional resistance is reduced and the release thereby facilitated.

When a pulling stress is applied tothedraw-bar, the front friction element 1 is prevented from moving forward by the stops 19, while the rear friction element 2 is pulled forward by the links 21 which are connected to the draw-bar 25. The wedge blocks 9 are thus caused to move laterallyl inward and forwardly, and the front plunger wedge 7 is forced forwardly by the movement of the wedge blocks 9, compress- -ing the springs 10 and 11 and also the spring 1,3, through the pull on the rod 15. The rear plunger wedge 8 remains stationary, since the wedge blocks move forwardly and inwardly at a rate that maintains the plane of contact at a constant position.

The spring 13 of course exerts itscornpressive force against the plunger wedge 8, but this is not sufficient to overcome the reactive force of the .springs 10 and 11, acting through the friction members.

1t will now be seen that since the outer spring 12 bears against a stationary abutment and engages the central plunger 8 at the opposite end, the spring will not act under pulling stresses and consequently the resistance of the gear will be less than when under a buling stress where all four springs are compressed, the positions of the parts under a pulling stress being shown in Fig.4 3 of the drawings.

Having now described my invention, what ll claim as new and desire to secure by Letters Patent, is:

1. 1n a friction draft gear, the combina- I tion with fr ont and rear friction elements each having oppositely inclined friction faces, opposing centrally arranged plunger wedges having oppositely inclined friction faces, and wedge blocks having friction faces adapted to engage the friction faces of the friction elements and the plunger wedges, of springs acting on one of said plunger wedges, one spring reacting on a stationary stop and another on the other plunger wedge.

2. In a. friction draft gear, the combination with front and rear friction elements each having oppositely inclined friction faces, opposing centrally arranged plunger wedges having oppositely inclined friction faces, and wedge blocks having friction faces adapted to engage the friction facesv of the friction elements and the plunger wedges, of a stop, a spring interposed between said stop and one plunger wedge, a second spring acting on said plunger Wedge, and a connection from the other plunger wedge forming an abutment for said second spring.

3. In a friction draft gear, the combination with front and rear friction elements each having oppositely inclined friction faces, opposing centrally arranged plunger wedges having oppositely inclined friction faces, and wedge blocks having friction faces adapted to engageA the friction faces of the friction elements and the plunger wedges, of a stationary abutment, a spring interposed between said abutment and one of the plunger wedges, anabutment movable with the other plunger wedge, and a second spring interposed between the movable abutment and the first plunger wedge.

4. 1n a friction draft gear, the combination with front and rear friction elements l each havingl oppositely inclined friction i' faces, opposing centrally arranged plunger f wedges having oppositely inclined friction faces, and wedge blocks hlaving friction faces adapted to engage the friction faces.I of the friction elements and the plunger wedges, of a spring acting on the front plunger wedge, a stationary abutment, a spring. interposed between said abutment and the rear plunger wedge, a member movable with the front plunger wedge, and a spring interposed between the rear plunger wedge and said member.

In testimonyT whereof I have hereunto set my hand.

' EDWARD W. NEWELL. Witnesses: l

A. M. CLEMENTS, f B. A. OLIVER.

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